Advanced Techniques for Skeletal Muscle Tissue Engineering and Regeneration

Advanced Techniques for Skeletal Muscle Tissue Engineering and Regeneration

Tissue engineering has recently emerged as a novel strategy for the regeneration of damaged skeletal muscle tissues due to its ability to regenerate tissue. However, tissue engineering is challenging due to the need for state-of-the-art interdisciplinary studies involving material science, biochemis...

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Main Authors: Moon Sung Kang, Seok Hyun Lee, Won Jung Park, Ji Eun Lee, Bongju Kim, Dong-Wook Han
Format: Article
Language:English
Published: MDPI AG 2020-08-01
Series:Bioengineering
Subjects:
skeletal muscle
tissue engineering
tissue regeneration
electrospinning
3D bioprinting
Online Access:https://www.mdpi.com/2306-5354/7/3/99
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spelling doaj-55a3346958cf41abb6fa180e7ac678492020-11-25T03:42:31ZengMDPI AGBioengineering2306-53542020-08-017999910.3390/bioengineering7030099Advanced Techniques for Skeletal Muscle Tissue Engineering and RegenerationMoon Sung Kang0Seok Hyun Lee1Won Jung Park2Ji Eun Lee3Bongju Kim4Dong-Wook Han5Department of Cogno-Mechatronics Engineering, College of Nanoscience and Nanotechnology, Pusan National University, Busan 46241, KoreaDepartment of Optics and Mechatronics, College of Nanoscience and Nanotechnology, Pusan National University, Busan 46241, KoreaDepartment of Optics and Mechatronics, College of Nanoscience and Nanotechnology, Pusan National University, Busan 46241, KoreaDepartment of Optics and Mechatronics, College of Nanoscience and Nanotechnology, Pusan National University, Busan 46241, KoreaDental Life Science Research Institute & Clinical Translational Research Center for Dental Science, Seoul National University Dental Hospital, Seoul 03080, KoreaDepartment of Cogno-Mechatronics Engineering, College of Nanoscience and Nanotechnology, Pusan National University, Busan 46241, KoreaTissue engineering has recently emerged as a novel strategy for the regeneration of damaged skeletal muscle tissues due to its ability to regenerate tissue. However, tissue engineering is challenging due to the need for state-of-the-art interdisciplinary studies involving material science, biochemistry, and mechanical engineering. For this reason, electrospinning and three-dimensional (3D) printing methods have been widely studied because they can insert embedded muscle cells into an extracellular-matrix-mimicking microenvironment, which helps the growth of seeded or laden cells and cell signals by modulating cell–cell interaction and cell–matrix interaction. In this mini review, the recent research trends in scaffold fabrication for skeletal muscle tissue regeneration using advanced techniques, such as electrospinning and 3D bioprinting, are summarized. In conclusion, the further development of skeletal muscle tissue engineering techniques may provide innovative results with clinical potential for skeletal muscle regeneration.https://www.mdpi.com/2306-5354/7/3/99skeletal muscletissue engineeringtissue regenerationelectrospinning3D bioprinting
collection DOAJ
language English
format Article
sources DOAJ
author Moon Sung Kang
Seok Hyun Lee
Won Jung Park
Ji Eun Lee
Bongju Kim
Dong-Wook Han
spellingShingle Moon Sung Kang
Seok Hyun Lee
Won Jung Park
Ji Eun Lee
Bongju Kim
Dong-Wook Han
Advanced Techniques for Skeletal Muscle Tissue Engineering and Regeneration
Bioengineering
skeletal muscle
tissue engineering
tissue regeneration
electrospinning
3D bioprinting
author_facet Moon Sung Kang
Seok Hyun Lee
Won Jung Park
Ji Eun Lee
Bongju Kim
Dong-Wook Han
author_sort Moon Sung Kang
title Advanced Techniques for Skeletal Muscle Tissue Engineering and Regeneration
title_short Advanced Techniques for Skeletal Muscle Tissue Engineering and Regeneration
title_full Advanced Techniques for Skeletal Muscle Tissue Engineering and Regeneration
title_fullStr Advanced Techniques for Skeletal Muscle Tissue Engineering and Regeneration
title_full_unstemmed Advanced Techniques for Skeletal Muscle Tissue Engineering and Regeneration
title_sort advanced techniques for skeletal muscle tissue engineering and regeneration
publisher MDPI AG
series Bioengineering
issn 2306-5354
publishDate 2020-08-01
description Tissue engineering has recently emerged as a novel strategy for the regeneration of damaged skeletal muscle tissues due to its ability to regenerate tissue. However, tissue engineering is challenging due to the need for state-of-the-art interdisciplinary studies involving material science, biochemistry, and mechanical engineering. For this reason, electrospinning and three-dimensional (3D) printing methods have been widely studied because they can insert embedded muscle cells into an extracellular-matrix-mimicking microenvironment, which helps the growth of seeded or laden cells and cell signals by modulating cell–cell interaction and cell–matrix interaction. In this mini review, the recent research trends in scaffold fabrication for skeletal muscle tissue regeneration using advanced techniques, such as electrospinning and 3D bioprinting, are summarized. In conclusion, the further development of skeletal muscle tissue engineering techniques may provide innovative results with clinical potential for skeletal muscle regeneration.
topic skeletal muscle
tissue engineering
tissue regeneration
electrospinning
3D bioprinting
url https://www.mdpi.com/2306-5354/7/3/99
work_keys_str_mv AT moonsungkang advancedtechniquesforskeletalmuscletissueengineeringandregeneration
AT seokhyunlee advancedtechniquesforskeletalmuscletissueengineeringandregeneration
AT wonjungpark advancedtechniquesforskeletalmuscletissueengineeringandregeneration
AT jieunlee advancedtechniquesforskeletalmuscletissueengineeringandregeneration
AT bongjukim advancedtechniquesforskeletalmuscletissueengineeringandregeneration
AT dongwookhan advancedtechniquesforskeletalmuscletissueengineeringandregeneration
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